
/* 
   Java includes a class BigInteger that provides all the capabilities
   necessary to implement the RSA public key encryption system.  This
   program demonstrates RSA by generating a public key / private key
   pair.  The user then enters a string.  The string is encrypted using
   the public key and decrypted using the private key.  Results are
   printed all along the way.
*/

import java.math.BigInteger;
import java.util.Random;

public class RSA2 {

   static int bits = 128;

   public static void main(String[] str) throws java.io.IOException {
   
      Random random = new Random();
      System.out.println("\n\nComputing public key (N,e) and private key (N,d):");
      
      // Choose two large primes p and q, let N  = pq, and let p1p1 = (p-1)(q-1).
      
      System.out.print("Computing p ... ");
      System.out.flush();
      BigInteger p = new BigInteger(bits, 50, random);
      System.out.println(p);
      System.out.print("Computing q ... ");
      System.out.flush();
      BigInteger q = new BigInteger(bits, 50, random);
      System.out.println(q);
      BigInteger N = p.multiply(q);
      System.out.println("N = pq is       " + N);
      BigInteger p1 = p.subtract(BigInteger.ONE);
      BigInteger q1 = q.subtract(BigInteger.ONE);;
      BigInteger p1q1 = p1.multiply(q1);
      System.out.println("(p-1)(q-1) is   " + p1q1);
      System.out.println();
      
      // Choose numbers e and d such that e is prime and ed = 1 mod N.
      
      BigInteger e = new BigInteger("" + 0x10001);
      System.out.println("Using e =       " + e);
      System.out.print("Computing d ... ");
      BigInteger d = e.modInverse(p1q1);
      System.out.println(d);
      
      // Now, the public key is the pair (N,d) and the private key
      // is the pair (N,e).  Do some encryptions and decryptions.
      // The user enters text that is encoded into an array of
      // integers.  (Use an array, not a single integer, since
      // the algorithm can only deals with a certain number of
      // characters at a time.)  Then this array is decoded to
      // give (if the algorithm is working) the original text.
      
      while (true) {
         System.out.println("\n\nEnter plaintext, press return to end: ");
         System.out.print("     ");
         StringBuffer b = new StringBuffer();
         while (true) {
            int ch = System.in.read();
            if (ch == '\n' || ch == -1)
               break;
            b.append((char)ch);
         }
         String s = b.toString();
         if (s.trim().length() == 0)
            break;
         BigInteger[] cyphertext = encode(s,N,e);
         System.out.println();
         System.out.println("Encoded Text, computed with RSA:");
         for (int i = 0; i < cyphertext.length; i++)
            System.out.println("     " + cyphertext[i]);
         String plaintext = decode(cyphertext,N,d);
         System.out.println();
         System.out.println("Decoded Text, computed with RSA:");
         System.out.println("     " + plaintext);
      }
      System.out.println();
   }
   

   /**
    *  Convert a string into a BigInteger.  The string should consist of
    *  ASCII characters only.  The ASCII codes are simply concatenated to
    *  give the integer.
    */
   public static BigInteger string2int(String str) {
      byte[] b = new byte[str.length()];
      for (int i = 0; i < b.length; i++)
         b[i] = (byte)str.charAt(i);
      return new BigInteger(1,b);
   }
   
   
   /**
    *  Convert a BigInteger into a string of ASCII characters.  Each byte
    *  in the integer is simply converted into the corresponding ASCII code.
    */
   public static String int2string(BigInteger n) {
      byte[] b = n.toByteArray();
      StringBuffer s = new StringBuffer();
      for (int i = 0; i < b.length; i++)
         s.append((char)b[i]);
      return s.toString();
   }
   

   /**
    *  Apply RSA encryption to a string, using the key (N,e).  The string
    *  is broken into chunks, and each chunk is converted into an integer.
    *  Then that integer, x, is encoded by computing  x^e (mod N).
    */
   public static BigInteger[] encode(String plaintext, BigInteger N, BigInteger e) {
       int charsperchunk = (N.bitLength()-1)/8;
       while (plaintext.length() % charsperchunk != 0)
           plaintext += ' ';
       int chunks = plaintext.length()/ charsperchunk;
       BigInteger[] c = new BigInteger[chunks];
       for (int i = 0; i < chunks; i++) {
          String s = plaintext.substring(charsperchunk*i,charsperchunk*(i+1));
          c[i] = string2int(s);
          c[i] = c[i].modPow(e,N);
       }
       return c;
   }
   
   
   /**
    *  Apply RSA decryption to a string, using the key (N,d).  Each integer x in
    *  the array of integers is first decoded by computing  x^d (mod N).  Then
    *  each decoded integers is converted into a string, and the strings are
    *  concatenated into a single string.
    */
   public static String decode(BigInteger[] cyphertext, BigInteger N, BigInteger d) {
      String s = "";
      for (int i = 0; i < cyphertext.length; i++)
         s += int2string(cyphertext[i].modPow(d,N));
      return s;
   }

}


/*

Sample output:



Computing public key (N,e) and private key (N,d):
Computing p ... 319200099727882485429806856538202736871
Computing q ... 246159064610520038049244855155541352371
N = pq is       78573997972600264346584460847100321977431094318333378495095985823688804971141
(p-1)(q-1) is   78573997972600264346584460847100321976865735153994975971616934111995060881900

Using e =       65537
Computing d ... 27360684921993845196658436928630795548072889237366973566813709101268585446173


Enter plaintext, press return to end:
     Hobart and William Smith Colleges

Encoded Text, computed with RSA:
     54024531828062641058031068563440172837550642238555662849519589433244899279164
     53429835691845923964879155722416168978469031140770148390200920077312135574494

Decoded Text, computed with RSA:
     Hobart and William Smith Colleges


Enter plaintext, press return to end:
     As I was walking down the stair, I met a man who wasn't there.

Encoded Text, computed with RSA:
     64813545714583503446954929135229029832900830704663864970652970798003741544743
     49630726216004681481931378050146276664790540026032936606563886187848341152294

Decoded Text, computed with RSA:
     As I was walking down the stair, I met a man who wasn't there.





*/
